TY - JOUR
T1 - The Effect of Foot Structure on Locomotion of a Small Biped Robot
AU - Nguyen, Tinh
AU - Tao, Linh
AU - Hasegawa, Hiroshi
N1 - Publisher Copyright:
© The Authors, published by EDP Sciences, 2017.
PY - 2017/2/9
Y1 - 2017/2/9
N2 - This paper is a presentation of a work that consists of considering a novel foot structure for biped robot inspired by human foot. The specific objective is to develop a foot mechanism with human-like toes for a small biped robot. The chosen architecture to present the biped includes ten degrees of freedom (DoF) on ten articulations between eleven links. Our study considers the effect of varying foot structure on a walking process of the robot in simulation by ADAMS (MSC software, USA) through gait generation method. In toe mechanism, aiming to reduce the energy consumption, the passive joint was selected as the toe joint. The center of gravity (CoG) point trajectories of the robot with varying toe is compared with each other in normal motion on flat terrain to determine the most consistent toe mechanism. The result shows that the selected foot structure enables the robot to walk stably and naturally.
AB - This paper is a presentation of a work that consists of considering a novel foot structure for biped robot inspired by human foot. The specific objective is to develop a foot mechanism with human-like toes for a small biped robot. The chosen architecture to present the biped includes ten degrees of freedom (DoF) on ten articulations between eleven links. Our study considers the effect of varying foot structure on a walking process of the robot in simulation by ADAMS (MSC software, USA) through gait generation method. In toe mechanism, aiming to reduce the energy consumption, the passive joint was selected as the toe joint. The center of gravity (CoG) point trajectories of the robot with varying toe is compared with each other in normal motion on flat terrain to determine the most consistent toe mechanism. The result shows that the selected foot structure enables the robot to walk stably and naturally.
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U2 - 10.1051/matecconf/20179508010
DO - 10.1051/matecconf/20179508010
M3 - Conference article
AN - SCOPUS:85013469514
SN - 2261-236X
VL - 95
JO - MATEC Web of Conferences
JF - MATEC Web of Conferences
M1 - 08010
T2 - 3rd International Conference on Mechatronics and Mechanical Engineering, ICMME 2016
Y2 - 21 October 2016 through 23 October 2016
ER -